Wolfgang Haak’s research while affiliated with Max Planck Institute for Evolutionary Anthropology and other places

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Publications (330)


Précisions sur la position chronologique et l’apparentement culturel de la tombe néolithique de Germignac, « le Bois-du-Bourg » (Charente-Maritime, France), Bulletin de la Société préhistorique française, 121, 4, 645-655
  • Article

January 2025

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2 Reads

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Bruno Boulestin

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Principal component analysis (PCA) of prehistoric individuals from the Caucasus region
a, extended West Eurasian PCA with 1522 individuals from 102 populations. b, West Eurasian PCA with 1243 individuals from 82 populations. The new individuals are shown with black outline.
Results of ADMIXTURE analysis (k = 10) of the individuals from the Caucasus
a, Individuals belonging to the Steppe cluster, b, Individuals belonging to the Caucasus cluster, and c, a representative selection of published reference individuals. Newly genotyped individuals (black outline) and published individuals are sorted by archaeological or genetic groups in chronological order from left to right.
Outgroup f3-statistics comparing genetic affinities of Mesolithic and Neolithic groups
a, Heatmap showing shared genetic drift estimated by outgroup f3-statistics of the form f3(Mbuti; X, Y) between all EHG-related groups published to date. Lighter colours indicate higher f3 values which corresponds to higher shared genetic drift. b, Scatterplot of outgroup f3-statistics measuring shared drift between Neolithic and Chalcolithic groups to Anatolia and Levant PPN. Groups from the Caucasus cluster are shown in red and brown symbols. The trend line is given by the red dashed line. Error bars indicate ± 1 s.e. and were calculated using a weighted block jackknife across all autosomes on the 1,240,000 panel (nSNPs = 1,150,639) and a block size of 5 Mb.
Formal test for temporal genetic changes in the Caucasus region
a, f4-statistic tests where X denotes Anatolia N, EHG, or Iran_N and b, where X denotes CHG, EHG, and Iran_N, and Test denotes various genetic groups from the Caucasus and Steppe clusters on the y axis. Significant Z-scores (|Z| > 3) are highlighted in orange and error bars indicate ± 3 s.e. and were calculated using a weighted block jackknife across all autosomes on the 1,240,000 panel (nSNPs = 1,150,639) and a block size of 5 Mb.
Admixture modelling of Neolithic South Caucasus groups and Admixture dating
Ternary plot of distal three-way qpAdm models for Neolithic and Chalcolithic groups from South Caucasus, Anatolia and Mesopotamia. a, Iran_N and b, CHG together with Anatolia_PPN, Levant_PPN are used as sources. c, Admixture date estimates calculated using the method DATES and two different pools of sources (Supplementary Table 11). Radiocarbon date intervals for each genetic group are shown as grey bars, circles and diamonds are the estimated admixture dates converted to calendar dates (assuming a generation time of 28 years) based on the mean and the oldest ¹⁴C dates, respectively. Error bars indicate ± 1 s.e.

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The rise and transformation of Bronze Age pastoralists in the Caucasus
  • Article
  • Full-text available

October 2024

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698 Reads

Nature

The Caucasus and surrounding areas, with their rich metal resources, became a crucible of the Bronze Age¹ and the birthplace of the earliest steppe pastoralist societies². Yet, despite this region having a large influence on the subsequent development of Europe and Asia, questions remain regarding its hunter-gatherer past and its formation of expansionist mobile steppe societies3–5. Here we present new genome-wide data for 131 individuals from 38 archaeological sites spanning 6,000 years. We find a strong genetic differentiation between populations north and south of the Caucasus mountains during the Mesolithic, with Eastern hunter-gatherer ancestry4,6 in the north, and a distinct Caucasus hunter-gatherer ancestry⁷ with increasing East Anatolian farmer admixture in the south. During the subsequent Eneolithic period, we observe the formation of the characteristic West Eurasian steppe ancestry and heightened interaction between the mountain and steppe regions, facilitated by technological developments of the Maykop cultural complex⁸. By contrast, the peak of pastoralist activities and territorial expansions during the Early and Middle Bronze Age is characterized by long-term genetic stability. The Late Bronze Age marks another period of gene flow from multiple distinct sources that coincides with a decline of steppe cultures, followed by a transformation and absorption of the steppe ancestry into highland populations.

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Poseidon – A framework for archaeogenetic human genotype data management

June 2024

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16 Reads

The study of ancient human genomes, archaeo- or palaeogenetics, has accelerated in the last ten years, with now thousands of new ancient genomes being released each year. Operating at the interface of genetics, anthro-pology and archaeology, this data includes features from all three fields, including rich meta- and context-data, for example regarding spatiotemporal provenience. While archives and standards for genetic sequencing data al-ready exist, no such infrastructure exists for combined genetic and meta-data that could ensure FAIR principles across the field. Here, we present Poseidon, a framework for open and FAIR data handling in archaeogenetics, including a specified package format, software tools, and public, community-maintained online archives. Poseidon emphasises human- and machine-readable data storage, the development of convenient and interoperable command line software, and a high degree of source granularity to elevate the original data publication to the main unit of long-term curation.


Poseidon – A framework for archaeogenetic human genotype data management

June 2024

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11 Reads

The study of ancient human genomes, archaeo- or palaeogenetics, has accelerated in the last ten years, with now thousands of new ancient genomes being released each year. Operating at the interface of genetics, anthro-pology and archaeology, this data includes features from all three fields, including rich meta- and context-data, for example regarding spatiotemporal provenience. While archives and standards for genetic sequencing data al-ready exist, no such infrastructure exists for combined genetic and meta-data that could ensure FAIR principles across the field. Here, we present Poseidon, a framework for open and FAIR data handling in archaeogenetics, including a specified package format, software tools, and public, community-maintained online archives. Poseidon emphasises human- and machine-readable data storage, the development of convenient and interoperable command line software, and a high degree of source granularity to elevate the original data publication to the main unit of long-term curation.


Figure 1. Spatiotemporal information of new and published data analyzed in this study. A. We annotate the geographic location of new genomic data from Georgia in squares, with solid colors corresponding to their chronological period. Published data from Georgia and surrounding territories (Armenia, Azerbaijan, Russia, and Turkey) are also indicated in transparent colors. We also highlight locations with artificially elongated skulls . B. Date and archaeological period information as an average for published data and as a range for the new samples. 14 C date ranges are annotated in black lines. Abbreviations of the periods discussed are provided.
The Genetic History of the South Caucasus from the Bronze to the Early Middle Ages: 5000 years of genetic continuity despite high mobility

June 2024

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666 Reads

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1 Citation

Archaeological and archaeogenetic studies have highlighted the pivotal role of the Caucasus region throughout prehistory, serving as a central hub for cultural, technological, and linguistic innovations. However, despite its dynamic history, the critical area between the Greater and Lesser Caucasus mountain ranges, mainly corresponding to modern-day Georgia, has received limited attention. Here, we generated an ancient DNA time transect consisting of 219 individuals with genome-wide data from 47 sites in this region, supplemented by 97 new radiocarbon dates. Spanning from the Early Bronze Age 5000 years ago to the so-called "Migration Period" that followed the fall of the Western Roman Empire, we document a largely persisting local gene pool that continuously assimilated migrants from Anatolia/Levant and the populations of the adjacent Eurasian steppe. More specifically, we observe these admixture events as early as the Middle Bronze Age. Starting with Late Antiquity (late first century AD), we also detect an increasing number of individuals with more southern ancestry, more frequently associated with urban centers - landmarks of the early Christianization in eastern Georgia. Finally, in the Early Medieval Period starting 400 AD, we observe genetic outlier individuals with ancestry from the Central Eurasian steppe, with artificial cranial deformations (ACD) in several cases. At the same time, we reveal that many individuals with ACD descended from native South Caucasus groups, indicating that the local population likely adopted this cultural practice.


Ancient Plasmodium genomes shed light on the history of human malaria

June 2024

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721 Reads

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7 Citations

Nature

Malaria-causing protozoa of the genus Plasmodium have exerted one of the strongest selective pressures on the human genome, and resistance alleles provide biomolecular footprints that outline the historical reach of these species¹. Nevertheless, debate persists over when and how malaria parasites emerged as human pathogens and spread around the globe1,2. To address these questions, we generated high-coverage ancient mitochondrial and nuclear genome-wide data from P. falciparum, P. vivax and P. malariae from 16 countries spanning around 5,500 years of human history. We identified P. vivax and P. falciparum across geographically disparate regions of Eurasia from as early as the fourth and first millennia bce, respectively; for P. vivax, this evidence pre-dates textual references by several millennia³. Genomic analysis supports distinct disease histories for P. falciparum and P. vivax in the Americas: similarities between now-eliminated European and peri-contact South American strains indicate that European colonizers were the source of American P. vivax, whereas the trans-Atlantic slave trade probably introduced P. falciparum into the Americas. Our data underscore the role of cross-cultural contacts in the dissemination of malaria, laying the biomolecular foundation for future palaeo-epidemiological research into the impact of Plasmodium parasites on human history. Finally, our unexpected discovery of P. falciparum in the high-altitude Himalayas provides a rare case study in which individual mobility can be inferred from infection status, adding to our knowledge of cross-cultural connectivity in the region nearly three millennia ago.


Bronze age Northern Eurasian genetics in the context of development of metallurgy and Siberian ancestry

June 2024

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400 Reads

Communications Biology

The Eurasian Bronze Age (BA) has been described as a period of substantial human migrations, the emergence of pastoralism, horse domestication, and development of metallurgy. This study focuses on two north Eurasian sites sharing Siberian genetic ancestry. One of the sites, Rostovka, is associated with the Seima-Turbino (ST) phenomenon (~2200-1900 BCE) that is characterized by elaborate metallurgical objects found throughout Northern Eurasia. The genetic profiles of Rostovka individuals vary widely along the forest-tundra Siberian genetic cline represented by many modern Uralic-speaking populations, and the genetic heterogeneity observed is consistent with the current understanding of the ST being a transcultural phenomenon. Individuals from the second site, Bolshoy Oleni Ostrov in Kola, in comparison form a tighter cluster on the Siberian ancestry cline. We further explore this Siberian ancestry profile and assess the role of the ST phenomenon and other contemporaneous BA cultures in the spread of Uralic languages and Siberian ancestry.


Figure 1: Schematic overview of the core components of the Poseidon framework. The Poseidon package specification forms the foundation on which various open source software tools and the Minotaur workflow are based. They, in turn, underpin and enable the public Poseidon data archives.
Figure 4: Spatiotemporal distribution of ancient individuals in the PCA and PAA (AADR v54.1.p1) public Poseidon archives. See Supplementary Text 8 for an explanation of how individuals were counted. The map shows the qualitative presence and absence of samples from both archives in a 5 • -resolution grid. Especially highlighted are areas and time periods for which the PCA includes samples from currently 13 author-submitted Poseidon packages.
Poseidon – A framework for archaeogenetic human genotype data management

April 2024

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179 Reads

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1 Citation

The study of ancient human genomes, archaeo- or palaeogenetics, has accelerated in the last ten years, with now thousands of new ancient genomes being released each year. Operating at the interface of genetics, anthro-pology and archaeology, this data includes features from all three fields, including rich meta- and context-data, for example regarding spatiotemporal provenience. While archives and standards for genetic sequencing data al-ready exist, no such infrastructure exists for combined genetic and meta-data that could ensure FAIR principles across the field. Here, we present Poseidon, a framework for open and FAIR data handling in archaeogenetics, including a specified package format, software tools, and public, community-maintained online archives. Poseidon emphasises human- and machine-readable data storage, the development of convenient and interoperable command line software, and a high degree of source granularity to elevate the original data publication to the main unit of long-term curation.


Location of archaeological sites. (a) Location of Kuckenburg and Esperstedt within Saxony—Anhalt in central Germany. (b) Excavation map of the two archaeological sites, demonstrating the hilltop settlement of Kuckenburg and the settlement and graveyard of Esperstedt. Maps of (a) and (b) were generated using QGIS software (v3.12.2-București https://qgis.org/). The original base maps were extracted from (a) the SRTM Data web site (https://srtm.csi.cgiar.org/srtmdata/) and (b) 
© GeoBasis-DE / LVerm-Geo ST, 2017, 167 (www.govdata.de/dl-de/by-2-0).
Comparison of δ¹³C and δ¹⁵N values from bone collagen for ancient individuals and fauna from Kuckenburg and Esperstedt. The dashed line represents millet’s “threshold” of δ¹³C = −18 ‰14,47. (a) δ¹³C and δ¹⁵N values for Kuckenburg individuals and fauna. (b) δ¹³C and δ¹⁵N values for Esperstedt individuals and fauna. Wheat icon (left) was created by Oleksandr Panasovskyi from Noun Project (CC BY 3.0), https://thenounproject.com/browse/icons/term/wheat/. Millet icon (right) was created by Roman from Noun Project (CC BY 3.0), https://thenounproject.com/browse/icons/term/millet/.
Comparison of δ¹³C human values from bone collagen and tooth enamel over time. The δ¹³C values are plotted against ¹⁴C calibrated dates (median) for ancient individuals from Kuckenburg and Esperstedt over/across a time transect including MN, FN, EBA, and LBA individuals. (a) δ¹³C values from bone collagen plotted against ¹⁴C calibrated dates (median). The dashed line represents a “threshold” of −18 ‰14,47. (b) δ¹³C values from tooth enamel plotted against ¹⁴C calibrated dates (median).
Biomolecular evidence for changing millet reliance in Late Bronze Age central Germany

February 2024

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355 Reads

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1 Citation

The Bronze Age of Central Europe was a period of major social, economic, political and ideological change. The arrival of millet is often seen as part of wider Bronze Age connectivity, yet understanding of the subsistence regimes underpinning this dynamic period remains poor for this region, in large part due to a dominance of cremation funerary rites, which hinder biomolecular studies. Here, we apply stable isotope analysis, radiocarbon dating and archaeobotanical analysis to two Late Bronze Age (LBA) sites, Esperstedt and Kuckenburg, in central Germany, where human remains were inhumed rather than cremated. We find that people buried at these sites did not consume millet before the Middle Bronze Age (MBA) (ca. 1600 BCE). However, by the early LBA (ca. 1300-1050 BCE) people consumed millet, often in substantial quantities. This consumption appears to have subsequently diminished or ceased around 1050-800 BCE, despite charred millet grains still being found in the archaeological deposits from this period. The arrival of millet in this region, followed by a surge in consumption spanning two centuries, indicates a complex interplay of cultural and economic factors, as well as a potential use of millet to buffer changes in aridity in a region increasingly prone to crop failure in the face of climate change today.


Fold-increase in reads mapping to chromosome 18 (x-axis) and chromosome 21 (y-axis), corrected for library protocol
Filled black circles show individuals for which there were at least 1000 reads, and for which at most one chromosome was significantly overrepresented. Labels indicate individual IDs. Source data is provided as a Source data file.
Estimated rate of prevalence (log-scale) grouped by mother’s age (from Mai et al.⁹)
The red dashed line indicates the total rate of prevalence, ignoring mother’s age, and the blue dashed line indicates the observed rate of prevalence in the premodern individuals. Source data is provided as a source data file.
Cases of trisomy 21 and trisomy 18 among historic and prehistoric individuals discovered from ancient DNA

February 2024

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429 Reads

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5 Citations

Aneuploidies, and in particular, trisomies represent the most common genetic aberrations observed in human genetics today. To explore the presence of trisomies in historic and prehistoric populations we screen nearly 10,000 ancient human individuals for the presence of three copies of any of the target autosomes. We find clear genetic evidence for six cases of trisomy 21 (Down syndrome) and one case of trisomy 18 (Edwards syndrome), and all cases are present in infant or perinatal burials. We perform comparative osteological examinations of the skeletal remains and find overlapping skeletal markers, many of which are consistent with these syndromes. Interestingly, three cases of trisomy 21, and the case of trisomy 18 were detected in two contemporaneous sites in early Iron Age Spain (800-400 BCE), potentially suggesting a higher frequency of burials of trisomy carriers in those societies. Notably, the care with which the burials were conducted, and the items found with these individuals indicate that ancient societies likely acknowledged these individuals with trisomy 18 and 21 as members of their communities, from the perspective of burial practice.


Citations (55)


... We acknowledge that the admixture event could have occurred earlier, which would align well with our estimated dates (inferred by ALDER and DATES) and recent studies on the demographic history in the adjacent Caucasus region. 83 Interestingly, archaeological evidence indicates that Middle and Late Bronze Age periods in the Armenian highlands were marked by significant transformations. 10 The Middle Bronze Age saw the emergence of diverse cultures, a predominant nomadic lifestyle, and active relations with Anatolia and the Aegean. ...

Reference:

Demographic history and genetic variation of the Armenian population
The Genetic History of the South Caucasus from the Bronze to the Early Middle Ages: 5000 years of genetic continuity despite high mobility

... This study introduced a compelling hypothesis of the European origin of P. vivax in Latin America. In 2024, Michel et al. [16] published four additional European P. vivax samples from the medieval to early modern period. Their findings further confirmed a strong genetic connection between European and Latin American P. vivax strains. ...

Ancient Plasmodium genomes shed light on the history of human malaria

Nature

... This trend may suggest a decline in millet farming after the Late Bronze Age, though such a shift may not have been universal. While declines in millet consumption are reported from parts of Europe (Marinval 1992;Plecerová et al. 2020;Orfanou et al. 2024), other regions, especially eastern Europe, provide evidence of millet consumption persisting into the 1st millennium AD (Reitesma and Kozłowski 2013; Halffman and Velemínský 2015; Chmiel-Chrzanowska and Fetner 2024). Similar patterns of variation are also evident at Lithuanian sites. ...

Biomolecular evidence for changing millet reliance in Late Bronze Age central Germany

... However, this assumption cannot be regarded as certain and must be tested using a larger reference sample. The genetic mutations underlying trisomy 21 are found in individuals from the Neolithic period in Ireland [22], Bronze Age Spain, Bulgaria and Greece [23], the Iron Age in Great Britain [24], early medieval France [23,25] and post-medieval Finland [23]. This mutation is the same as today [26]. ...

Cases of trisomy 21 and trisomy 18 among historic and prehistoric individuals discovered from ancient DNA

... Comparisons between valleys and mountainous regions based on faunal remains and isotopic analysis have also been undertaken in Georgia and Azerbaijan (Berthon et al., 2021). In Georgia, recent works have been carried out on intermontane sites located at an altitude of around 700 m (Stöllner et al., 2023), but there are no studies dedicated to Chalcolithic occupations specifically located in mountain contexts. Thanks to recent excavations conducted on the Bavra Ablari rockshelter (1,650 m asl), new bioarchaeological analyses have been carried out. ...

Between Valleys and Mountains. The Dzedzvebi Plateau as an Intermediate Settlement Site of Late Chalcolithic and Early Bronze Age Communities in the Lesser Caucasus
  • Citing Article
  • January 2023

Archaeologia Austriaca

... Uno de los ejemplos mejor conocidos es el individuo cráneo D3444 y mandíbula D3900 (Dmanisi, Georgia), un individuo de Homo Georgicus datado en el Paleolítico Inferior (1,7-1,8 m.a), quien perdió en vida todos los dientes salvo los caninos, los cuales no operarían varios años antes de su muerte, ya que los alveolos mandibulares están reabsorbidos, lo que indica que tuvo que ser alimentado con alimentos procesados (Sáez, 2019;Sánchez-Romero, 2022). Pero igualmente podemos citar otros ejemplos, como el caso de "Benjamina", en los yacimientos de la Sierra de Atapuerca en Burgos (Gracia et al., 2010); el caso de "Nandy" u hombre de Shanidar en el Kurdistán (Sáez, 2019;Sánchez-Romero, 2022); la "Chamana" de Bad Dürrenberg en Alemania (Orschiedt et al., 2023); el sujeto número 169 del Camino del Molino en Caravaca de la Cruz en Murcia (Díaz et al., 2018) o la mujer del Castellón Alto en Galera, Granada (Alarcón, 2007). ...

The Shaman and the Infant: The Mesolithic Double Burial from Bad Dürrenberg, Germany

... Very recently, another interesting analysis has focused on a specific genetic marker (Ychromosome H2) in early European farmers and identified two subclades, called H2d and H2m, which are found respectively along the inland and Mediterranean routes of Neolithic spread 26 . The importance of comparing the farmer-HG interactions along both routes has been recently stressed 32,37,40 , but the proportion of farmers that interbred with HGs and/or acculturated one of them along each route has never been estimated. The aim of the present paper is precisely to compare this feature of ancient behavior along both routes. ...

Socio-cultural practices may have affected sex differences in stature in Early Neolithic Europe

Nature Human Behaviour

... www.nature.com/scientificreports/ studied, such as Mokrin (Serbia), La Almoloya (Spain), Schiepzig and the Lech Valley (Germany) differ in their layout and respective burial practices, e.g., burials within the settlements 28 , funerary places directly associated with farmsteads 24,29,30 , smaller necropoles 27 or closed burial grounds possibly associated with a settlement. Leubingen is geographically located within the Thuringian basin in the modern-day state of Thuringia, Germany, and hence within the southern distribution range of the Circum-Harz group (Fig. 1a). ...

Life and work – A possible ›house community‹ at the Early Bronze Age settlement of Schiepzig in Central Germany

... Примеры неоднократного датирования имеются и для закрытых погребальных комплексов. Сведения о конкретных датировках и контексте приведены в таблице 1. Часть данных (AMS) опубликована в качестве онлайн-приложения к статье 2023 года [Blöcher et al., 2023] [Reimer et al., 2020]. Уже при первом взгляде очевидна существенная разница в величине среднеквадратического отклонения, однако следует отметить, что при калибровке индивидуальных значений этот фактор влияет не очень значительно по причине сложного характера калибровочной кривой с локальным плато в районе 3500 л.н. ...

Descent, marriage, and residence practices of a 3,800-year-old pastoral community in Central Eurasia

Proceedings of the National Academy of Sciences

... 6,500 years BP (Gimbutas 1970;Mallory, 1989;Anthony, 2007) The alternative "Anatolian" hypothesis proposes that the expansion originated from Anatolia region and occurred much earlier, around 9,500-8,500 years BP (Renfrew, 1987;Bellwood, 2005). In addition to that, one of the recent studies proposed a hybrid model: here, the primary homeland is seen south of the Caucasus (as in the "Anatolian" hypothesis) while the later secondary homeland is located in the steppe region (in line with the "Steppe" hypothesis) (Heggarty et al., 2023). As for development of the languages that are of primary importance for our study, it is widely accepted that the Baltic languages grew out of the Balto-Slavic branch of the Proto-Indo-European, while the Indo-European languages of India are surely known to have evolved from the Indo-Iranian branch. ...

Paul Heggarty, Cormac Anderson, Denise Kühnert, Russell D. Gray [18 co-authors, Matilde Serangeli, 9 co-authors]. Languages trees with sampled ancestors support an early origin of the Indo-European languages.

Science